Solubilization of soybean mitochondria in AOT/isooctane water‐in‐oil microemulsions

Hochkoeppler, A.; Luisi, Pier Luigi

doi:10.1002/bit.260340814

Cited by 2 publications

(3 citation statements)

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“…Organic solubilization of proteins has also been achieved using the phase-transfer or extraction method, in which protein from an aqueous phase is extracted into an organic phase containing very low concentrations of a surfactant (Paradkar and Dordick, 1994). Much larger species, such as bacterial cells (Häring et al, 1985) and soy bean mitochondria (Hochkeoppler and Luisi, 1989), have been solubilized in reverse micelles as well, but required the addition of much more surfactant. Among the most commonly used systems for organic solubilization is Aerosol OT (AOT)/water/isooctane.…”

Section: Introductionmentioning

confidence: 99%

Solubilization and stabilization of bacteriophage MS2 in organic solvents

Johnson¹,

Hooker²,

Francis³

et al. 2006

Biotech & Bioengineering

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Several techniques were examined for the solubilization of bacteriophage MS2 in organic solvents. Direct extraction of the MS2 from an aqueous phase into isooctane containing 2 mM AOT, a proven approach for the organic solubilization of many proteins, was not successful. However, predried samples of MS2 were solubilized through the direct addition of organic solvents containing 500 mM AOT. As an alternative procedure, reverse micelles containing aqueous solutions of MS2 were prepared in isooctane using AOT, dehydrated through solvent evaporation and azeotropic drying, and resolubilized in a solvent of choice. The structure and microenvironment of organic-solubilized MS2 were investigated by UV absorbance, the fluorescence emission of an attached solvatochromatic dye, tryptophan fluorescence, and atomic force microscopy, all of which contributed evidence for a fully assembled capsid in the organic solvent. The solubilized MS2 was derivatized with stearic acid in chloroform, illustrating that bioconjugation reactions can be performed on organic-solubilized capsids using reagents that are completely insoluble in water. Furthermore, the organic-solubilized phage remained infectious after heating at 90 degrees C for 20 min, whereas phage in aqueous buffer or dried with nitrogen were nonviable following the heat treatment protocol. The extended range of available chemical modifications and the enhanced thermal stability of the organic-solubilized capsids bodes well for the formulation of storage-stable vaccines predicated on reactions in or exposure to organic media.

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Section: Introductionmentioning

confidence: 99%

Solubilization and stabilization of bacteriophage MS2 in organic solvents

Johnson¹,

Hooker²,

Francis³

et al. 2006

Biotech & Bioengineering

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show abstract

“…Εκτός από ένζυμα και άλλα βιομόρια έχουν εγκλωβιστεί σε αντίστροφα μικκύλια όπως μεγάλα βιοπολυμερή π.χ. DNA [Goto et al, 2004], όργανα κυττάρων πχ μιτοχόνδρια [Hochkoeppler and Luisi, 1989], αλλά και ολόκληρα κύτταρα [Cinelli et al, 2006]. Γενικά η εισαγωγή του όρου «ένζυμο σε αντίστροφα μικκύλια» πραγματοποιήθηκε από τον Wells κάποια χρόνια αργότερα [Misiorowski and Wells, 1974].…”

Section: ένζυμα σε αντίστροφα μικκύλιαunclassified

“…Τα κύρια πλεονεκτήματα της μεθόδου αυτής παρουσιάζονται στον Πίνακα 5.4. [Hochkoeppler and Luisi, 1989;Goto et al, 2004;Cinelli et al, 2006;Anarbaev et al, 2009] σε αντίστροφα μικκύλια όπως περιγράφθηκε στην παράγραφο 3.3.6.1.2. Κατά τον σχηματισμό των αντίστροφων μικκυλίων το ένζυμο παραμένει διαλυτό στην υδατική μικροφάση ενώ τα μόρια των υποστρωμάτων και προϊόντων διαχέονται από και προς την οργανική φάση του συστήματος [Orlich and Schomacker, 2002;Dasgupta et al, 2005;Moniruzzaman et al, 2006].…”

Section: ενθυλάκωση (Encapsulation)unclassified

Ανάπτυξη Βιοκαταλυτικών Διεργασιών Σε Μη Συμβατικά Μέσα Για Την Τροποποίηση Ενώσεων Φυτικής Προέλευσης Με Στόχο Την Αναβάθμιση Των Ιδιοτήτων Τους

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Solubilization of soybean mitochondria in AOT/isooctane water‐in‐oil microemulsions

Cited by 2 publications

References 0 publications

Solubilization and stabilization of bacteriophage MS2 in organic solvents

Solubilization and stabilization of bacteriophage MS2 in organic solvents

Ανάπτυξη Βιοκαταλυτικών Διεργασιών Σε Μη Συμβατικά Μέσα Για Την Τροποποίηση Ενώσεων Φυτικής Προέλευσης Με Στόχο Την Αναβάθμιση Των Ιδιοτήτων Τους

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